SU1067312A1 - Thermoelectric device - Google Patents

Description

The invention relates to thermoelectric devices and can be used in electrothermal, refrigeration and other areas of equipment for heating and cooling working media. A thermoelectric device for heating and cooling an object, which contains a heat pump with semiconductor branches connected respectively to a bus generator and a cooling bus, is known to have channels, and copper rods with channels separated by a dielectric 1J between the branches. . The disadvantage of the device lies in the small difference between the temperatures reached between the cold and hot contact plates of the thermal cooler, which does not allow to reach low temperatures, STO is a consequence of the small value of the operating voltage on the thermal cooler, which is created by the thermal generator, which by virtue of constructive features of the device has only one pair of semiconductor branches. The purpose of the invention is to expand the functional capabilities of the device. The goal is achieved by the fact that a thermoelectric device for heating and cooling an object, which contains a heat pump with semiconductor branches, are connected respectively to the bus generator and cooler bus having channels, and copper rods with channels placed between the branches the dielectric contains a second similar heat pump, and each tire is made integral with the dielectric between the parts, and the semiconductor branches with the generator are connected to both cTopoHari parts of the refrigerator cooler of the first pump With a bore, one of the parts of which is connected through the semiconductor branch to the copper rod of the second pump, the channels of the copper rods and parts of the cooling bus, as well as the channels of the parts of the bus generator, are connected in series with the formation of autonomous zigzag circuits. . FIG. 1 presents the proposed; device, general view; on .fig. 2. - section A-A in FIG. 1. The device comprises a first heat pump with semiconductor branches 1 and 2, connected respectively to the bus-generator 3 and the cooler 4, having, respectively, channels 5 and 6 and located between the branches. Copper rods 7 with channels 8, separated by a dielectric, and a second heat pump with a bus-generator 9. Each pump tire is made integral with a dielectric between the parts, with semiconductor branches 1 and 2 sec connected to both parts of the cooling bus 4 of the first pump. bus generator 9. One of the parts of this generator is connected through the semiconductor branch 2 to the copper rod 7 of the second pump, while the channels of the parts of bus generators 3 and 9 are connected in series with the formation of autonomous circulation circuits in the working environments. The bus-generators 3 and 9 are equipped with heaters 10 and channels 11. The device operates as follows. Electric heaters 10 are supplied with a working voltage, coolants {working fluids) are supplied to channels 5,6 and 8. Moreover, in the channels 5 of the generator 3 coolant circulates coolant. As a result, the bus-generator 3 heats up the cooler bus-4 more. In connection with the fact that the channels of the bus-generator and the cooler bus of the ndsosov are connected in series with the formation of autonomous circulation loops, more heating of the coolant takes place in channels 5 and 11 generators 3 and 9 respectively. As a result, there is a significant temperature difference between the tires of the pumps, leading to the occurrence of thermo-electromotive force and electric current. Due to the fact that an additional pump is installed in the proposed device (thermal J, i.e., additional semiconductor branches and bus-generators with heaters installed in them, an additional electromotive force is generated. Due to this, the total thermoelectromotive force and voltage life in comparison with the known devices increases. As a result, the functionality of the proposed device is expanded.

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Claims (1)

THERMOELECTRIC DEVICE for heating and cooling an object, comprising a heat pump with semiconductor branches connected respectively to a generator bus (ru and cooler bus having channels, and copper rods with channels separated by a dielectric, located between the branches, characterized in that, in order to expand the functional features of the device, it contains a second similar heat pump, and each bus is made integral with a dielectric between the parts, and to both sides of the parts of the bus-cooler first semiconductor branches are connected to the pump with a bus * generator, one of the parts of which is connected through a semiconductor branch to the copper rod of the second pump, while the channels of copper rods and parts of the bus-cooler, as well as the channels of parts of the bus-generator, are connected in series with the formation of autonomous zigzag circulation circuits . _J g ¹ Figure 1 I have · vetraz15 a second similar thermal each bus is made with a dielectric between the parts of both sides of the parts of the bus 1067312 directly to the generator bus 3 and the refrigerator 4, respectively, having channels 5 and 6 and copper rods 7 with channels 8 located between the branches, separated by a dielectric , and a second heat pump with a generator bus 9. Each pump bus is made integral with a dielectric between the parts, and semiconductor branches 1 and 2 with the generator bus 9 are connected to both sterons of the parts of the cooler bus 4 of the first pump. One of the parts of this generator is connected via a semiconductor branch 2 to the copper rod 7 of the second pump, while the channels of the parts of the bus generators 3 and 9 are connected in series with the formation of autonomous circulating circuits of the working medium. Generator buses 3 and 9 are equipped with heaters 10 and channels 11. The device operates as follows. The electric heaters 10 are supplied with operating voltage, and the coolant (working media) is supplied to channels 5.6 and 8. Moreover, in the channels 5 of the generator 3 circulates the coolant. As a result, the generator bus 3 heats up the cooler bus 4. The channels of the generator bus and the cooler bus of the pump pumps are connected in series with the formation of autonomous circulation circuits, more heating is carried out in the channels 5 and 11 of the bus generators 3 and 9 respectively. As a result, there is a significant temperature difference between the tires of the pumps, leading to (the occurrence of thermoelectromotive force and electric current. Due to the fact that an additional pump (thermal) is installed in the proposed device, i.e., there are additional semiconductor branches and bus-generators with heaters mounted in them, an additional electros = driving force is generated 50. Due to this, the total thermoelectromotive force and voltage in comparison with known devices increases. In re ^; 55 as a result, the functionality of the proposed device is expanded.